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Structured sparse multiset canonical correlation analysis of simultaneous fNIRS and EEG provides new insights into the human action-observation network

Hadis Dashtestani, Helga O. Miguel, Emma Condy, Selin Zeytinoglu, John Millerhagen, Ranjan Debnath, Elizabeth G. Smith, Tülay Adalı, Nathan A. Fox, Amir Gandjbakhche

2022Scientific Reports20 citationsDOIOpen Access PDF

Abstract

The action observation network (AON) is a network of brain regions involved in the execution and observation of a given action. The AON has been investigated in humans using mostly electroencephalogram (EEG) and functional magnetic resonance imaging (fMRI), but shared neural correlates of action observation and action execution are still unclear due to lack of ecologically valid neuroimaging measures. In this study, we used concurrent EEG and functional Near Infrared Spectroscopy (fNIRS) to examine the AON during a live-action observation and execution paradigm. We developed structured sparse multiset canonical correlation analysis (ssmCCA) to perform EEG-fNIRS data fusion. MCCA is a generalization of CCA to more than two sets of variables and is commonly used in medical multimodal data fusion. However, mCCA suffers from multi-collinearity, high dimensionality, unimodal feature selection, and loss of spatial information in interpreting the results. A limited number of participants (small sample size) is another problem in mCCA, which leads to overfitted models. Here, we adopted graph-guided (structured) fused least absolute shrinkage and selection operator (LASSO) penalty to mCCA to conduct feature selection, incorporating structural information amongst the variables (i.e., brain regions). Benefitting from concurrent recordings of brain hemodynamic and electrophysiological responses, the proposed ssmCCA finds linear transforms of each modality such that the correlation between their projections is maximized. Our analysis of 21 right-handed participants indicated that the left inferior parietal region was active during both action execution and action observation. Our findings provide new insights into the neural correlates of AON which are more fine-tuned than the results from each individual EEG or fNIRS analysis and validate the use of ssmCCA to fuse EEG and fNIRS datasets.

Topics & Concepts

Canonical correlationComputer scienceElectroencephalographyFunctional magnetic resonance imagingArtificial intelligenceCorrelationMultisetPattern recognition (psychology)Lasso (programming language)Feature selectionNeuroimagingMachine learningPsychologyNeuroscienceMathematicsGeometryCombinatoricsWorld Wide WebEEG and Brain-Computer InterfacesFunctional Brain Connectivity StudiesAction Observation and Synchronization
Structured sparse multiset canonical correlation analysis of simultaneous fNIRS and EEG provides new insights into the human action-observation network | Litcius